The objective of this study was to evaluate the performance of an in-chamber tar cracking and syngas reforming unit.This unit was composed of a two-stage tubular reactor placed within the combustion zone of an updraft...The objective of this study was to evaluate the performance of an in-chamber tar cracking and syngas reforming unit.This unit was composed of a two-stage tubular reactor placed within the combustion zone of an updraft biomass gasifier.Heat generated in the exothermic combustion reactions of biomass gasification drove tar cracking and syngas reforming in the tubes,eliminating the need of external heating.The performance of the unit was evaluated using char-supported NiO catalysts and was found to be very effective in tar removal and syngas composition enhancement.A tar removal rate of 95% was achieved at 0.3 s residence time and 10%nickel loading.This condition also gave syngas high-heating value increment of 36%(to 7.3 MJ/m^(3)).The effect of gas residence time and Ni loading on tar removal and syngas composition of the unit was also studied.Gas residence of 0.2-0.3 s and Ni loading of 5%-10% were found appropriate to produce clean syngas with tar content appropriate for industrial applications(<0.6 g/m^(3))in an updraft biomass gasifier without external heating.展开更多
基金supported by the U.S.Department of Agriculture and Sun Grant(Award No.2010-38502-21836 and Subaward No.AB-5-67630.KSU11)the startup fund of North Carolina State Universitypartially supported by the scholarship program of IFARHU-SENACYT from the Government of Panama.
文摘The objective of this study was to evaluate the performance of an in-chamber tar cracking and syngas reforming unit.This unit was composed of a two-stage tubular reactor placed within the combustion zone of an updraft biomass gasifier.Heat generated in the exothermic combustion reactions of biomass gasification drove tar cracking and syngas reforming in the tubes,eliminating the need of external heating.The performance of the unit was evaluated using char-supported NiO catalysts and was found to be very effective in tar removal and syngas composition enhancement.A tar removal rate of 95% was achieved at 0.3 s residence time and 10%nickel loading.This condition also gave syngas high-heating value increment of 36%(to 7.3 MJ/m^(3)).The effect of gas residence time and Ni loading on tar removal and syngas composition of the unit was also studied.Gas residence of 0.2-0.3 s and Ni loading of 5%-10% were found appropriate to produce clean syngas with tar content appropriate for industrial applications(<0.6 g/m^(3))in an updraft biomass gasifier without external heating.
